TS2018-Midas Gen/Civil 2018 Link

June 2018

Release A

Copyright: Harpaceas Srl, Viale Giulio Richard, 1 20143 – Milano (MI) - Italy www.harpaceas.it

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Table of contents System requirements ...................................................................................................................... 2

Actual features of TS2018-Midas Gen/Civil 2018 Link ...................................................................... 3

Unit of measurement ....................................................................................................................... 4

Environment management .............................................................................................................. 4

Section management ...................................................................................................................... 5

Twin profiles ................................................................................................................................ 5

Cross section data table ............................................................................................................... 6

Material management...................................................................................................................... 6

Member axis location in the analysis model of Tekla Structures ........................................................ 7

Export from Tekla Structures to Midas Gen/Civil .............................................................................. 8

Import/export of MGT files in Midas Gen/Civil ................................................................................. 11

Import in Tekla Structures of MGT file exported from Midas Gen/Civil ............................................. 13

Example of 2D element data transfer from TS to Midas Gen ........................................................... 16

Panel with holes ......................................................................................................................... 16

Panel without holes + Property element analysis class = “Wall – Shear wall” ................................ 17

Slab without holes ...................................................................................................................... 18

Slab with holes ........................................................................................................................... 19

System requirements In order to work properly, you need to guarantee the following system requirements:

Tekla Structures 2018

Midas GEN 2018 or Civil 2018

OS: Windows 10

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Actual features of TS2018-Midas Gen/Civil 2018 Link ELEMENT TYPE TS → Midas Gen/Civil Midas Gen/Civil → TS

Column

vertical yes (beam element) yes (column element)

inclined yes (beam element) yes (beam element)

Beam

straight yes yes

curved a curved beam is divided

into straight beams N/A

Slab (3 or 4 nodes w/o openings) Plate element N/A

Slab (more than 4 nodes w/o openings) Contour transferred as

peculiar beam element N/A

Slab (with openings, independently

from the number of nodes)

Contour transferred as

peculiar beam element

N/A

Panel (4 nodes without openings &

Analisis class ≠ "Panel - Shear Wall")

Contour transferred as

peculiar beam element N/A

Panel (4 nodes with openings) Contour transferred as

peculiar beam element N/A

Panel (4 nodes without openings &

Analysis class = "Panel - Shear Wall") Wall element Wall element

Concrete panels and slabs (more than 4

nodes)

Contour transferred as

peculiar beam element N/A

MATERIAL TS → Midas Gen/Civil Midas Gen/Civil → TS

concrete MidasMaterialMapping.cnv

(*)

MidasMaterialMapping.cnv

(*)

steel MidasMaterialMapping.cnv

(*)

MidasMaterialMapping.cnv

(*)

wood and other types user defined user defined

Material user defined user defined user defined

(*) the availability of materials conversion depend on the used Tekla Structures Environment

and on the used Midas Standard of material.

BOUNDARY CONDITIONS TS → Midas Gen/Civil Midas Gen/Civil → TS

support Ok Ok

beam end release

Ok

Only for new elements

Centroid Centroid

section offset or

Reference axis position

or

Reference axis position

(*) (*)

beam end offset N/A N/A

elastic link, type rigid Only between beams N/A

(*) Depending on Tekla Structures analysis options; Reference axis position N/A for truss

elements.

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MERGE OPTION TS → Midas Gen/Civil Midas Gen/Civil → TS

new element yes yes

new element that divide other elements yes yes

topology changes yes yes

GET RESULT FROM MIDAS TS → Midas Gen/Civil Midas Gen/Civil → TS

section change

yes

yes +

UDA TS-MIDAS_status =

Modified

new element outside original

yes

yes +

UDA TS-MIDAS_status =

New

new element inside original

yes

yes +

UDA TS-MIDAS_status =

New

delete element

yes

Warning: “Missing” +

UDA TS-MIDAS_status =

Deleted

divide element yes N/A

change only the offset yes N/A

change only the rotation

yes

yes +

UDA TS-MIDAS_status =

Modified

Material change

yes

yes +

UDA TS-MIDAS_status =

Modified

Unit of measurement The TS-Midas link allows the use of different units of measurement in the two softwares.

Environment management The link uses different sections & material databases, depending on the used Tekla Environment. These

configurations are stored in the “MidasEnvironmentStandards.cnv” contained in the following folder:

C:\<Tekla Structures installation folder>\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

The typical paths are reported below:

C:\Program Files\Tekla Structures\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

C:\Tekla Structures\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

The content of “MidasEnvironmentStandards.cnv” is reported in the next page.

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!tekla env steel mat concr mat sections

Europe EN05(S) EN(RC) UNI

AISC CNS(S) CNS(RC) CNS91

India IS(S) IS(RC) IS84

Japan JIS(S) JIS(RC) JIS2K

Korea KS08(S) KS01(RC) KS

UK BS04(S) BS(RC) BS4-93

usimp ASTM(S) ASTM(RC) AISC2K(US)

usmet ASTM(S) ASTM(RC) AISC2K(SI)

france EN05(S) EN04(RC) UNI

Germany DIN(S) EN04(RC) DIN switzerland EN05(S) EN04(RC) UNI

Section management In order to create a biunique correspondence between Tekla Structures and Midas Gen/Civil section

databases, the link uses a mapping file named “MidasSectionMapping.cnv”. This file is contained in the

following folder:

C:\<Tekla Structures installation folder>\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

The typical paths are reported below:

C:\Program Files\Tekla Structures\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

C:\Tekla Structures\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

A section of “MidasSectionMapping.cnv” file is reported below. The user can update/change the file.

TS name

!UNI]

MIDAS name

UNI]

MIDAS DB name

!![Shape: L]

L15*3 L15x3 UNI

L20*3 L20x3 UNI

L20*4 L20x4 UNI

L25*3 L25x3 UNI

L25*4 L25X4 UNI

NB: Some section mappings cannot be modified: e.g. Midas L-shaped profiles are converted in TS L-shaped

profiles if the material is steel (L profile with fillet radius), or in LC profiles (available in Tekla Warehouse) if

the material is concrete (L profile without fillet radius).

NB: If the link can’t find a mapped section name, the link tries to transfer a parametric section compiling

automatically the section parameters.

Twin profiles

Actually, the export of twin profiles from TS to Midas is partially supported by the link (see “Cross section

data table”).

NB: To export Twin profiles, set “Consider twin profile” option to “Enabled” in “Analysis Model Properties”.

If the option is set to “Disabled” [default value] Tekla Structures exports Twin Profiles as two single elements.

The import of twin profiles in Tekla Structures is not supported.

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Cross section data table

Section type Tekla S section Code Midas section Code

H

HEA HEA

HEB HEB

HEM HEM

IPE IPE

INP IPN

L (Concrete) LC parametric L

L (Steel) L L

C UNP Channel - User section

C profile C

T (Concrete) TC parametric T

T (Steel) T parametric T

Solid Rect side1*side2 side1*side2

Solid round D D

Pipe CHS Pipe - User section

Box RHS Box - User section

Double angle (*)

Twin profile L, 2L

Twin profile L, 2L

Twin profile L,

other cases General Section (I, A)

Double channel (*)

Twin profile UNP, 2C

Twin profile UNP,

other cases General Section (I, A)

(*) Twin profile can only be exported from Tekla Structures

Material management In order to create a biunique correspondence between Tekla Structures and Midas Gen/Civil material

databases, the link uses a mapping file named “MidasMaterialMapping.cnv”. This file is contained in the

following folder:

C:\<Tekla Structures installation folder> \<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

The typical paths are reported below:

C:\Program Files\Tekla Structures\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

C:\ Tekla Structures\<Version>\nt\bin\plugins\Tekla\Link_TS_Midas

Two sections of “MidasMaterialMapping.cnv” file are reported in the next page. The first section is referred

to concrete, the second one to steel. The user can update/change the file.

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TS name

!EN(RC)]

MIDAS name

EN(RC)]

MIDAS standard

C12/15 C12/15 EN(RC)

C16/20 C16/20 EN(RC)

C20/25 C20/25 EN(RC)

C25/30 C25/30 EN(RC)

C30/37 C30/37 EN(RC)

C35/45 C35/45 EN(RC)

C40/50 C40/50 EN(RC)

C45/55 C45/55 EN(RC)

C50/60 C50/60 EN(RC)

TS name

!EN05(S)]

S235JR

MIDAS name

EN05(S)]

S235

MIDAS standard

EN05(S)

S275JR S275 EN05(S)

S355JR S355 EN05(S)

S450JR S450 EN05(S)

S275N/NL S275N/NL EN05(S)

S355N/NL S355N/NL EN05(S)

S420N/NL S420N/NL EN05(S)

S460N/NL S460N/NL EN05(S)

S275M/ML S275M/ML EN05(S)

S355M/ML S355M/ML EN05(S)

S420M/ML S420M/ML EN05(S)

S460M/ML S460M/ML EN05(S)

S235W S235W EN05(S)

S355W S355W EN05(S) S460Q/QL/QL1 S460Q/QL/QL1 EN05(S)

Member axis location in the analysis model of Tekla Structures The TS-Midas link can handle the following options:

a. Neutral axis The neutral axis is the analysis axis for all parts. The location of the analysis

axis changes if the profile of the part changes.

b. Reference axis The part reference line is the analysis axis for all parts. This option

can’t be used if there are truss elements in TS model.

If the user ticks the “Beam offset” checkbox in the export phase, the section offset is set in

one of the 9 permitted reference axis positions (cyan grips in the below image) accordingly

to the reference line of the part.

If the user doesn’t tick “Beam offset” checkbox, the section offset is set in the centroid.

If “Neutral axis” is selected, the user should not check the “Beam offset” option during the export phase.

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Export from Tekla Structures to Midas Gen/Civil 1) In “Analysis & design” tab click on “A&D models”

2) Click on “New” button

3) Choose the correct Analysis application: “Midas 2018 – Rel.x” and eventually tick the “Set as

default” option

4) Choose the settings that best suit to your case. We suggest to use the creation method “By selected

parts and loads” and/or use a filter that excludes all the secondary elements and connections.

5) Choose the proper Member axis location (for more details, please refer to “Member axis location in

the analysis model of Tekla Structures” section)

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6) Once clicked on “OK” button you should see the analysis model created according your settings. You

can now check the correctness of the model. The user can modify the position of the analysis

elements manually.

7) To export the analysis model, click the “Export” button

8) If there are no load combinations, the software will ask if you want to create load combinations.

We suggest to answer “No” and create load combinations directly in Midas software.

9) By clicking on the OK button you’re declaring that the analysis model you’re exporting is in

accordance with the physical model.

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10) Choose the file format (Midas Gen or Midas Civil) and click on the “Continue” button

11) Select what needs to be managed by the link. By ticking “2D Elements”, the link will export the

perimeter of planar elements, including also holes inside them – if holes are considered in the

analysis model –. The perimeter is exported with peculiar elements characterized by

a. section number = 999999

b. section name = Contorno

c. Profile: Round bar D=0.05mm

Please consider that the “2D Elements” tick will not affect panels whose Analysis member property

class is equal to “Wall – Shear wall”. These panels are transferred in Midas as wall elements.

12) Once created the MGT/MCT file, the link informs the user that the process was completed.

13) You can find the MGT file in “<Model Folder>\Analysis\<Analysis model name>” folder.

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Import/export of MGT files in Midas Gen/Civil In Midas Gen you can import the MGT file exported by Tekla Structures (click on the Midas Gen Icon

Import midas Gen MGT file). In the following picture you can find the import process result.

Beam elements are colored in white, wall elements in light blue and plate elements in pink. You can see

that for planar elements with openings and planar elements with more than 4 nodes only the perimeter is

transferred.

The user can easily select the perimeters and perform the mesh of the 2D elements.

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In this example some changes are made in Midas Gen:

a. A new floor is added

b. The height of all the beams of the penultimate floor is increased from 600mm to 800mm

c. The cross section of the column of the first two floors is increased from 400mm x 400mm

to 500mm x 500mm

To export the MGT file, click on the Midas Gen Icon Export midas Gen MGT file

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Import in Tekla Structures of MGT file exported from Midas Gen/Civil 1) Overwrite the MGT file contained in the folder <Model Folder>\Analysis\<Analysis model name>

with the MGT file received from the Structural Engineer.

2) Open Tekla Structures and activate the CTRL+5 view mode

3) In “Analysis & design” tab click on “A&D models”

4) Click on the proper Analysis model name and click on “Import”

5) Choose the File format and click on “Continue” button

6) Select what the link should manage in the import process and click on “Continue” button. Please

consider that 2D plate elements cannot be imported in Tekla Structures.

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7) Once the link has finished analyzing the MGT/MCT file, you’ll see a window with info on “New

members”, “Profile changes”, “Warnings”. Select the elements that you want to accept and click on

“Accept selection” button.

NB: Selecting an element in the “Profile changes” section will highlight the correspondent part in

the model (see picture below).

8) After clicking on the “Accept selection” button you can close “Analysis & Design Model” window.

You’ll see that the model has updated the model with the latest accepted changes.

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9) In order of looking at a glance what’s changed, a new representation filter has been created:

“TS-Midas_status”.

This filter works on the “TS-MIDAS_status” UDA:

New items are colored in green

Modified items are colored in yellow

Deleted items are colored in red

Items not changed in Midas are colored in grey (70% transparency).

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Example of 2D element data transfer from TS to Midas Gen

Panel with holes

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Panel without holes + Property element analysis class = “Wall – Shear wall”

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Slab without holes

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Slab with holes